Encapsulation of Akkermansia muciniphila in calcium-alginate matrix: a live biotherapeutic strategy for gut microbiota modulation and intestinal infection mitigation

Machado, Daniela; Vedor, Rita; Fonseca, Mariana; Sousa, Sérgio; Barbosa, Joana Cristina; Carvalho, Nelson Mota de; Costa, Célia Maria; Madureira, Ana Raquel; Gomes, Ana Maria

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Encapsulation of Akkermansia muciniphila in calcium-alginate matrix: a live biotherapeutic strategy for gut microbiota modulation and intestinal infection mitigation

2025-09-14Documento de conferência

dc.contributor.author	Machado, Daniela
dc.contributor.author	Vedor, Rita
dc.contributor.author	Fonseca, Mariana
dc.contributor.author	Sousa, Sérgio
dc.contributor.author	Barbosa, Joana Cristina
dc.contributor.author	Carvalho, Nelson Mota de
dc.contributor.author	Costa, Célia Maria
dc.contributor.author	Madureira, Ana Raquel
dc.contributor.author	Gomes, Ana Maria
dc.date.accessioned	2025-11-17T12:03:22Z
dc.date.available	2025-11-17T12:03:22Z
dc.date.issued	2025-09-14
dc.description.abstract	Objective: Akkermansia muciniphila is a next-generation probiotic recognized for improving gut barrier function and metabolic health. However, ensuring its viability during processing, storage, and gastrointestinal transit remains a challenge. This study investigated calcium-alginate encapsulation as a strategy for enhancing the stability of A. muciniphila during refrigerated aerobic storage and gastrointestinal passage as well as biological validation in an in vitro fecal model. Methods: A. muciniphila was encapsulated using an extrusion technique with 2% (m/v) sodium alginate and 4% (m/v) calcium chloride. Viability of free and encapsulated cells was assessed over 28-days of refrigerated aerobic storage. Gastrointestinal stability was evaluated using the INFOGEST protocol. In vitro colonic fermentation was conducted in healthy and Escherichia coli O157:H7-infected fecal samples. Microbial composition was analyzed via metagenomic sequencing, while microbial metabolism was assessed by ammonia quantification and short- chain fatty acids (SCFA) profile analysis. Results: Encapsulation achieved a 60% yield and preserved high probiotic viability (at levels around 8-log CFU/g) during 28- days of storage. Moreover, encapsulated cells exhibited higher survival when exposed to gastrointestinal conditions compared to free cells. In fecal fermentation assays, encapsulated A. muciniphila enhanced microbial diversity, reduced Escherichia genus abundance, and modulated SCFA profile. Furthermore, an increasing trend in ammonia production until the 30-hour mark, followed by a decline suggests potential ammonia assimilation by the probiotic. Conclusions: Calcium-alginate encapsulation is a promising delivery strategy to improve the viability and functionality of A. muciniphila, supporting its use as a live biotherapeutic agent for modulating gut microbiota and intestinal infections mitigation.	eng
dc.identifier.citation	Machado, D., Vedor, R., Fonseca, M., & Sousa, S. et al. (2025). Encapsulation of Akkermansia muciniphila in calcium-alginate matrix: a live biotherapeutic strategy for gut microbiota modulation and intestinal infection mitigation. 77-77. Abstract from 13th Probiotics, Prebiotics and New Foods, Rome, Italy.
dc.identifier.other	d59cfcbd-1095-44fc-bf61-02d7d5ce6769
dc.identifier.uri	http://hdl.handle.net/10400.14/55664
dc.language.iso	eng
dc.peerreviewed	yes
dc.rights.uri	N/A
dc.title	Encapsulation of Akkermansia muciniphila in calcium-alginate matrix: a live biotherapeutic strategy for gut microbiota modulation and intestinal infection mitigation	eng
dc.type	conference object
dspace.entity.type	Publication
oaire.citation.endPage	77
oaire.citation.startPage	77
oaire.version	http://purl.org/coar/version/c_970fb48d4fbd8a85

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